CN218599797U - Radiation-proof energy-gathering type induction cooker - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic ovens, and discloses a radiation-proof energy-gathering electromagnetic oven, which comprises a bottom shell and an electromagnetic coil panel connected to the bottom shell, and the radiation-proof energy-gathering electromagnetic oven also comprises an upper shell structure and an energy-gathering sealing ring; the upper shell structure comprises an upper shell cover, a furnace panel and a ring body connecting part; wherein, the upper shell cover is connected with the bottom shell in a matching way; the furnace panel is positioned in the upper shell cover, is attached to the electromagnetic coil panel and is connected with the upper shell cover through the ring body connecting part; the energy-gathering sealing ring is embedded on the connecting part of the ring body in a matched and clamped mode. The radiation-proof energy-gathering electromagnetic oven can shield the magnetic force lines of the magnetic field radiating out of the outer ring of the energy-gathering sealing ring by utilizing the energy-gathering sealing ring, prevent the magnetic force lines of the magnetic field from radiating outwards, concentrate the magnetic force lines of the magnetic field in the inner ring of the energy-gathering sealing ring, effectively gather the energy of the magnetic field, further enhance the effect of the magnetic field on a cooker and improve the utilization rate of energy efficiency.

Description

Radiation-proof energy-gathering type induction cooker

Technical Field

The utility model relates to an electromagnetism stove technical field especially relates to a radiation protection gather ability formula electromagnetism stove.

Background

The principle of the electromagnetic oven is magnetic field induction eddy current heating, namely, current is utilized to pass through a coil to generate a magnetic field, when magnetic lines in the magnetic field pass through the bottom of an iron pot, magnetic lines are cut, so that countless small eddy currents are generated, iron atoms of the iron pot rotate at high speed, collision friction heat is generated, and food in the pot is directly heated.

The patent number is CN211781348U and discloses a radiation protection's electromagnetism stove, includes the base and installs the electromagnetism drum on the base, the electromagnetism drum includes the plate rail, around the coil of locating the plate rail top to and set up in the magnetic conduction strip of plate rail below, the electromagnetism stove still is equipped with the ring of protecting against radiation, the magnetic conduction strip includes horizontal section and vertical section, the horizontal section is radially extended from interior to exterior along the plate rail, vertical section begins upwards to extend from the outer end of horizontal section, the ring of protecting against radiation is located the magnetic conduction strip below, and locates the periphery of vertical section outer fringe. Although the radiation-proof ring has a certain radiation-proof effect on the induction cooker, the directions of the magnetic lines of force of the magnetic field generated by the electromagnetic wire coil are disorderly, and the radiation-proof induction cooker still cannot well gather the magnetic lines of force of the magnetic field, so that a part of electromagnetic radiation radiates outwards, the energy efficiency is reduced, and the radiation-proof induction cooker is easily harmful to a human body.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the problems of the prior art and providing a radiation-proof energy-gathered electromagnetic oven which can prevent the magnetic force lines of a magnetic field from radiating outwards and effectively concentrate the energy of the gathered magnetic field and improve the utilization rate of energy efficiency.

In order to achieve the above purpose, the utility model adopts the following scheme:

an anti-radiation energy-gathering electromagnetic oven comprises a bottom shell and an electromagnetic coil panel connected to the bottom shell, and further comprises an upper shell structure and an energy-gathering sealing ring; the upper housing structure includes:

the upper shell cover is connected to the bottom shell in a matching manner;

the furnace panel and the ring body connecting part; the furnace panel is positioned in the upper shell cover, is attached to the electromagnetic coil panel and is connected with the upper shell cover through the ring body connecting part; the energy-gathering sealing ring is embedded on the ring body connecting part in a matched and clamped mode.

Furthermore, the ring body connecting part is of an annular structure and is provided with an outer ring groove, a middle ring groove and an inner ring groove which are sequentially arranged from outside to inside and have the same central axis; the at least two ring grooves are positioned between the outer ring groove and the inner ring groove and are distributed in sequence from large to small in an equal proportion in the direction from outside to inside relative to the connecting part of the ring body; the bottom of the outer ring groove and the bottom of the inner ring groove are both provided with a plurality of arc-shaped radiating holes distributed around the central axis of the connecting part of the ring body; and a plurality of heat dissipation holes distributed around the central axis of the connecting part of the ring body are formed in the bottom of the middle ring groove.

Furthermore, the energy-gathering sealing ring is provided with a clamping ring groove which is the same with the energy-gathering sealing ring in the central axis; the ring body connecting part is clamped in the clamping ring groove in a matching manner.

Further, waterproof glue adhered to the energy-gathering sealing rings is filled in the outer ring groove and the inner ring groove.

Further, the shaped charge seal ring is made of aluminum metal.

Furthermore, the joint between the top surface of the energy-gathering sealing ring and the side surface of the outer ring of the energy-gathering sealing ring and the joint between the top surface of the energy-gathering sealing ring and the side surface of the inner ring of the energy-gathering sealing ring are both provided with a fillet.

Further, still include temperature controller, temperature controller installs on the ring body connecting portion.

Furthermore, the device also comprises a cooling fan and a control module; the heat dissipation fan and the control module are both arranged in the bottom shell and are positioned below the electromagnetic coil panel; and the control module is respectively connected with the electromagnetic coil panel, the temperature controller and the heat radiation fan through wires.

Furthermore, an air inlet cover corresponding to the position of the heat dissipation fan is arranged on the bottom surface of the bottom shell; and radiating meshes are arranged on the side surface of the bottom shell and/or the side surface of the upper shell cover.

Furthermore, a plurality of reinforcing ribs are uniformly distributed on the bottom surface of the furnace panel.

Compared with the prior art, the utility model has the advantages of as follows:

the utility model discloses to go up cap, stove face board and ring body connecting portion and form shell structure, adopt shell structure as an overall structure, again will gather and to gather ability sealing ring looks adaptation inlay and be in on the ring body connecting portion, go up shell structure and combine to form a shielding structure with gathering the sealing ring again, under this shielding structure's sheltering from, to the magnetic field that the electromagnetic coil dish produced, gather and can shield the magnetic line of force that the magnetic field of the outer loop that gathers the sealing ring can radiate the play well to gather the magnetic line of force of magnetic field and radiate outward, and concentrate the magnetic line of force in gathering the inner loop that gathers the sealing ring with magnetic field, concentrate the energy in gathering magnetic field effectively, and then strengthened the effect of magnetic field to the pan, the utilization ratio of efficiency has been improved.

Drawings

The present application will be described in further detail with reference to the following drawings and detailed description.

Fig. 1 is a schematic exploded perspective view of the radiation-proof energy-gathering electromagnetic oven of the present invention.

Fig. 2 is a schematic perspective view of the radiation-proof energy-gathering electromagnetic oven of the present invention.

Fig. 3 is a schematic top view of the upper housing structure of the present invention.

Fig. 4 is an enlarged view of a portion a shown in fig. 3.

Fig. 5 is a schematic bottom view of the upper housing structure of the present invention.

Fig. 6 is a schematic perspective view of the energy-gathering sealing ring of the present invention.

The figure includes:

the electromagnetic induction cooker comprises a bottom shell 1, an electromagnetic coil panel 2, an upper shell structure 3, an upper shell cover 31, a cooker panel 32, a ring body connecting part 33, an outer ring groove 331, a middle ring groove 332, an inner ring groove 333, an arc-shaped heat dissipation port 334, a heat dissipation hole 335, an energy-gathering sealing ring 4, a clamping ring groove 41, a temperature controller 5, a heat dissipation fan 6, a control module 7, an air inlet cover 8, a heat dissipation mesh 9 and a reinforcing rib 10.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to fig. 6, an energy-gathered radiation-proof induction cooker comprises a bottom case 1 and an electromagnetic coil panel 2 connected to the bottom case 1, and further comprises an upper shell structure 3 and an energy-gathered sealing ring 4; the bottom shell 1 is connected with the upper shell structure 3 through bolts. The upper shell structure 3 comprises an upper shell cover 31, a furnace panel 32 and a ring connection 33. Wherein, the upper shell cover 31 is connected to the bottom shell 1 in a matching way; specifically, the bottom case 1 and the upper case cover 31 are connected by bolts. The oven panel 32 is positioned in the upper case cover 31, attached to the electromagnetic coil panel 2, and connected to the upper case cover 31 through the ring body connecting part 33; the energy-gathering sealing ring 4 is inserted into the ring body connecting part 33 in a matched and clamped mode.

This radiation protection gather ability formula electromagnetism stove with go up shell cover 31, stove face plate 32 and ring body connecting portion 33 and form shell structure 3, adopt shell structure 3 as an overall structure, again will gather ability sealing ring 4 looks adaptation inlay card and be in on ring body connecting portion 33, go up shell structure 3 and combine with gathering ability sealing ring 4 again and form a shielding structure, under this shielding structure's sheltering from, to the magnetic field that solenoid dish 2 produced, gather ability sealing ring 4 and can shield the magnetic line of force that radiates out the magnetic field of gathering the outer loop of ability sealing ring 4 well, prevent the outside radiation of magnetic field to concentrate the magnetic line of force in the inner loop of gathering ability sealing ring 4 in the magnetic line of force in the magnetic field, effectively concentrate the energy in magnetic field, and then strengthened the effect of magnetic field to the pan, improved the utilization ratio of energy efficiency.

The ring body connecting part 33 is of an annular structure, and the ring body connecting part 33 is provided with an outer ring groove 331, a middle ring groove 332 and an inner ring groove 333 which are sequentially arranged from outside to inside and have the same central axis; at least two ring grooves are positioned between the outer ring groove 331 and the inner ring groove 333 and are sequentially distributed from large to small in an equal proportion in the direction from the outside to the inside relative to the ring body connecting part 33; the bottom of the outer ring groove 331 and the bottom of the inner ring groove 333 are both provided with a plurality of arc-shaped heat dissipation openings 334 distributed around the central axis of the ring body connecting part 33; the bottom of the middle ring groove 332 is provided with a plurality of heat dissipation holes 335 arranged around the central axis of the ring body connecting part 33. The energy-gathering sealing ring 4 is provided with a clamping ring groove 41 which has the same central axis with the energy-gathering sealing ring; the ring body connecting part 33 is adapted to be clamped into the clamping ring groove 41. And waterproof glue adhered with the energy-gathering sealing ring 4 is filled in the outer ring groove 331 and the inner ring groove 333. The arc-shaped heat dissipation ports 334 and the heat dissipation holes 335 are respectively and correspondingly arranged in the outer ring groove 331, the inner ring groove 333 and the middle ring groove 332, and then are combined with the outer ring groove 331, the inner ring groove 333 and the middle ring groove 332, so that the outer ring groove 331, the inner ring groove 333 and the middle ring groove 332 form a heat dissipation flow channel, the cooling between the ring body connecting part 33 and the energy-gathering sealing ring 4 can be effectively accelerated, a good heat dissipation effect is achieved, and the influence on the stable connection between the ring body connecting part 33 and the energy-gathering sealing ring 4 is avoided. And the outer ring groove 331 and the inner ring groove 333 are filled with waterproof glue, so that the radiation-proof energy-gathering induction cooker is effectively waterproof, and liquid such as water and the like is prevented from entering the bottom shell 1 from a gap between the ring body connecting part 33 and the energy-gathering sealing ring 4 to damage the structure of the bottom shell 1.

Preferably, the energy-gathering sealing ring 4 is made of aluminum metal, has good strength and low cost, can well shield magnetic lines of force of the magnetic field radiating out of the outer ring of the energy-gathering sealing ring 4, prevents the magnetic lines of force of the magnetic field from radiating outwards, concentrates the magnetic lines of force of the magnetic field in the inner ring of the energy-gathering sealing ring 4, effectively concentrates the energy of the magnetic field, further enhances the effect of the magnetic field on a cooker, and improves the utilization rate of energy efficiency.

In order to make the surface of the energy-gathering sealing ring 4 smooth, the appearance is better, sharp edges are removed, good safety is achieved, the organization structure of the energy-gathering sealing ring 4 is better, cracks are not prone to occurring, structural deformation is reduced, and fillets are arranged at the connecting position between the top surface of the energy-gathering sealing ring 4 and the outer ring side surface and at the connecting position between the top surface of the energy-gathering sealing ring 4 and the inner ring side surface.

This radiation protection's energy-gathered electromagnetism stove still includes temperature controller 5, radiator fan 6 and control module 7, temperature controller 5 installs on ring body connecting portion 33, can effectively prevent overheated, the power saving is safe again. The heat radiation fan 6 and the control module 7 are both arranged in the bottom shell 1 and are positioned below the electromagnetic coil panel 2; the control module 7 is respectively connected with the electromagnetic coil panel 2, the temperature controller 5 and the heat radiation fan 6 through electric wires. The control module 7 is a conventional control structure of the existing induction cooker. The control module 7 controls the electromagnetic coil panel 2 to work, the electromagnetic coil panel 2 is utilized to generate a high-frequency (20-25 KHZ) alternating magnetic field under the action of the control circuit, a large amount of dense eddy current is generated through a magnetic conductivity (iron) cooker, induced current is converted into heat to heat food, and the energy efficiency is extremely high. The radiation fan 6 can accelerate the overall radiation effect of the radiation-proof energy-gathering induction cooker.

In order to enhance the overall heat dissipation effect of the radiation-proof energy-gathering induction cooker, an air inlet cover 8 corresponding to the position of the heat dissipation fan 6 is arranged on the bottom surface of the bottom shell 1; the side surface of the bottom shell 1 and/or the side surface of the upper shell cover 31 are/is provided with heat dissipation mesh holes 9.

In order to enhance the strength of the furnace panel, a plurality of reinforcing ribs 10 are uniformly distributed on the bottom surface of the furnace panel.

To sum up, the embodiment of the utility model provides a radiation protection gather ability formula electromagnetism stove, wherein, this radiation protection gather ability formula electromagnetism stove will go up cap 31, stove face board 32 and ring body connecting portion 33 and form shell structure 3, adopt shell structure 3 as an overall structure, will gather again and to gather ability sealing ring 4 looks adaptation inlay on ring body connecting portion 33, go up shell structure 3 and combine to form a shielding structure with gathering ability sealing ring 4 again, under this shielding structure's sheltering from, to the magnetic field that solenoid dish 2 produced, gather ability sealing ring 4 and can shield the magnetic line of force that radiates out the magnetic field of gathering the outer loop of gathering ability sealing ring 4 well, prevent that the magnetic line of force in magnetic field from radiating outwards to concentrate the magnetic line of force in gathering the inner ring that gathers ability sealing ring 4 with the magnetic field, concentrate the energy in magnetic field effectively, and then strengthened the effect of magnetic field to the pan, improved the utilization ratio of efficiency.

The foregoing is only a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, many modifications and substitutions can be made without departing from the technical principle of the present application, and these modifications and substitutions should also be regarded as the protection scope of the present application.

Claims (10)

1. A radiation-proof energy-gathered electromagnetic oven comprises a bottom shell and an electromagnetic coil panel connected to the bottom shell, and is characterized in that the radiation-proof energy-gathered electromagnetic oven also comprises an upper shell structure and an energy-gathered sealing ring; the upper housing structure includes:

the upper shell cover is connected to the bottom shell in a matching manner;

the furnace panel and the ring body connecting part; the furnace panel is positioned in the upper shell cover, is attached to the electromagnetic coil panel and is connected with the upper shell cover through the ring body connecting part; the energy-gathering sealing ring is embedded on the connecting part of the ring body in a matched and clamped mode.

2. The radiation-proof energy-gathered induction cooker according to claim 1, wherein the ring body connecting part is of an annular structure and is provided with an outer ring groove, a middle ring groove and an inner ring groove which are sequentially arranged from outside to inside and have the same central axis; the at least two ring grooves are positioned between the outer ring groove and the inner ring groove and are distributed in sequence from large to small in an equal proportion in the direction from outside to inside relative to the connecting part of the ring body; the bottom of the outer ring groove and the bottom of the inner ring groove are both provided with a plurality of arc-shaped radiating holes distributed around the central axis of the connecting part of the ring body; and a plurality of heat dissipation holes distributed around the central axis of the connecting part of the ring body are formed in the bottom of the middle ring groove.

3. The radiation-proof energy-gathered induction cooker according to claim 2, wherein the energy-gathered sealing ring is provided with a clamping ring groove which is concentric with the energy-gathered sealing ring; the ring body connecting part is clamped in the clamping ring groove in a matching manner.

4. The energy-gathered radiation protection induction cooker according to claim 2, wherein the outer ring groove and the inner ring groove are both filled with waterproof glue adhered to the energy-gathered sealing rings.

5. The radiation protected focused induction cooker according to claim 1, wherein said focused sealing ring is made of aluminum metal.

6. The radiation-proof energy-gathered induction cooker according to claim 1, wherein the joint between the top surface of the energy-gathered sealing ring and the side surface of the outer ring thereof and the joint between the top surface of the energy-gathered sealing ring and the side surface of the inner ring thereof are rounded.

7. The radiation-shielding, energy-concentrating induction cooker according to claim 1, further comprising a temperature controller, said temperature controller being mounted on said ring connection portion.

8. The radiation-resistant energy-concentrating induction cooker according to claim 7, further comprising a cooling fan and a control module; the heat dissipation fan and the control module are both arranged in the bottom shell and are positioned below the electromagnetic coil panel; and the control module is respectively connected with the electromagnetic coil panel, the temperature controller and the heat dissipation fan through electric wires.

9. The radiation-proof energy-gathered induction cooker according to claim 8, wherein an air inlet cover corresponding to the position of the heat dissipation fan is arranged on the bottom surface of the bottom shell; and heat dissipation meshes are arranged on the side surface of the bottom shell and/or the side surface of the upper shell cover.

10. The radiation-proof energy-gathering induction cooker according to claim 1, wherein a plurality of reinforcing ribs are uniformly distributed on the bottom surface of the cooker panel.

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